let k be Element of NAT ; :: thesis: for A being non empty set
for v being Element of Valuations_in A
for ll being CQC-variable_list of k
for p being Element of CQC-WFF
for J being interpretation of A
for P being QC-pred_symbol of k
for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let A be non empty set ; :: thesis: for v being Element of Valuations_in A
for ll being CQC-variable_list of k
for p being Element of CQC-WFF
for J being interpretation of A
for P being QC-pred_symbol of k
for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let v be Element of Valuations_in A; :: thesis: for ll being CQC-variable_list of k
for p being Element of CQC-WFF
for J being interpretation of A
for P being QC-pred_symbol of k
for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let ll be CQC-variable_list of k; :: thesis: for p being Element of CQC-WFF
for J being interpretation of A
for P being QC-pred_symbol of k
for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let p be Element of CQC-WFF ; :: thesis: for J being interpretation of A
for P being QC-pred_symbol of k
for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let J be interpretation of A; :: thesis: for P being QC-pred_symbol of k
for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let P be QC-pred_symbol of k; :: thesis: for r being Element of relations_on A st p = P ! ll & r = J . P holds
( v *' ll in r iff (Valid (p,J)) . v = TRUE )
let r be Element of relations_on A; :: thesis: ( p = P ! ll & r = J . P implies ( v *' ll in r iff (Valid (p,J)) . v = TRUE ) )
assume that
A1: p = P ! ll and
A2: r = J . P ; :: thesis: ( v *' ll in r iff (Valid (p,J)) . v = TRUE )
A3: now
assume (Valid (p,J)) . v = TRUE ; :: thesis: v *' ll in r
then (ll 'in' (J . P)) . v <> FALSE by A1, Lm1;
hence v *' ll in r by A2, Def9; :: thesis: verum
end;
now
assume v *' ll in r ; :: thesis: (Valid (p,J)) . v = TRUE
then (ll 'in' (J . P)) . v = TRUE by A2, Def9;
hence (Valid (p,J)) . v = TRUE by A1, Lm1; :: thesis: verum
end;
hence ( v *' ll in r iff (Valid (p,J)) . v = TRUE ) by A3; :: thesis: verum